| Entry |
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| Symbol |
pbpA
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| Name |
(GenBank) penicillin-binding protein 1A
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| KO |
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| Organism |
cspf Campylobacter sputorum
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| Pathway |
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| Brite |
KEGG Orthology (KO) [BR:cspf00001]
09100 Metabolism
09107 Glycan biosynthesis and metabolism
00550 Peptidoglycan biosynthesis
CSF_1548 (pbpA)
09160 Human Diseases
09175 Drug resistance: antimicrobial
01501 beta-Lactam resistance
CSF_1548 (pbpA)
09180 Brite Hierarchies
09181 Protein families: metabolism
01003 Glycosyltransferases [BR:cspf01003]
CSF_1548 (pbpA)
01011 Peptidoglycan biosynthesis and degradation proteins [BR:cspf01011]
CSF_1548 (pbpA)
Enzymes [BR:cspf01000]
2. Transferases
2.4 Glycosyltransferases
2.4.99 Transferring other glycosyl groups
2.4.99.28 peptidoglycan glycosyltransferase
CSF_1548 (pbpA)
3. Hydrolases
3.4 Acting on peptide bonds (peptidases)
3.4.16 Serine-type carboxypeptidases
3.4.16.4 serine-type D-Ala-D-Ala carboxypeptidase
CSF_1548 (pbpA)
Glycosyltransferases [BR:cspf01003]
Polysaccharide
Bacterial polysaccharide (excluding LPS)
CSF_1548 (pbpA)
Peptidoglycan biosynthesis and degradation proteins [BR:cspf01011]
Peptidoglycan biosynthesis and degradation
Glycosyltransferase/DD-Transpeptidase (Class A PBP)
CSF_1548 (pbpA)
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| SSDB |
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| Motif |
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| Other DBs |
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| LinkDB |
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| Position |
complement(1526522..1528453)
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| AA seq |
643 aa
MRYIFGILFACFVALALFLGKLYSDIHFEAYSIIDYNPRLTTQIYDRNGELIANVFDDEN
RLYVDYKDIPGRIIEALVAIEDTSFFEHEGINIEAIFRALIKDIKAMKLVEGASTITQQL
IKNVALSPEKKIIRKIKEAVLAYEVENKLTKEQILERYLNHVYFGHGYYGIKTAANGYFR
KTLDELTLKEISMLVGMPKAPSAYDPTKHMDLALSRANSVVSRMYDLGWINKNEYEIALA
EEPKVYDDTLSKNRAPYVVDEVIKEASLYFSDIRTGGYIIQTSIDLQAQDKAVEALRFGY
NEILKRDKDANSTVLNGALIATHPQSGDILALVGGVDYNKSNYNRATQATRQLGSSFKPF
IYQLALNLGYSPMSKIPDVARVFENANAGEDWTPKNYGNKYKGFITLKEALRDSRNLATI
NLLNQIGLDVAYQKLTELGFSGISQDLSIALGSFGVSPLEASKFYSMFPNLGEIVEPKLI
RKVTNKFGITKIYDSKRAFIMEPEQAYLMVDMLKTVVNEGTGRRARVDGVEIGGKTGTTN
NNVDAWFCGFAPELAVMVWYGNDNNTPMKKFEGGARTSGPVFKKFVEDYKKLNPDMETKF
VKPDGVKSMMYQGKEAFYTDKSPLPNSSQMDNLDMQESEGLIF |
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| NT seq |
1932 nt +upstreamnt +downstreamnt
atgagatatatttttggaattttatttgcttgttttgtggctttggctttatttcttgga
aaattatatagtgatattcactttgaggcatatagcataattgattataatccaagatta
actactcaaatttatgatagaaacggcgaacttatagcaaatgtatttgatgatgaaaat
agattgtatgtggattataaagacataccgggtagaatcatagaagcacttgttgcgata
gaagatacatctttttttgaacacgagggtataaatatagaagctatttttagagctttg
ataaaagatataaaagccatgaaattagtcgagggtgcatcaacaattactcaacaactt
ataaagaatgtcgcacttagtccagaaaaaaagattataagaaaaataaaagaagcggtt
cttgcatatgaagtagaaaataagcttacaaaagagcaaattttagaaagatatctaaat
catgtttattttgggcacggatattatggtataaaaactgctgcaaatgggtattttaga
aaaactttagatgaactaacattaaaagaaatttcaatgcttgttggtatgccaaaagca
ccaagtgcgtatgatccaacaaaacatatggatttagctctttctcgcgccaatagtgta
gttagtaggatgtatgatttgggttggataaacaaaaatgagtatgagatagctttggca
gaagaacctaaggtatatgatgatacgctcagtaaaaatagagcaccttatgttgttgat
gaagttataaaagaagcgtcgctttatttttcagatatacgaactggcggttatatcata
caaacgagcattgatttacaagctcaagataaggcagtagaggcgttaagatttggttat
aatgaaattttaaaaagagataaagatgcaaatagtactgttttaaatggtgcattaata
gcaactcatccacaaagtggcgatatattggctttggttggcggagttgattataataaa
agcaactataatcgtgccactcaagctactagacagcttggttctagttttaaacctttt
atttatcaattagctttaaatttaggatattcgcctatgagtaagattcctgatgtggca
agagtttttgaaaatgcaaatgctggtgaagattggactcctaaaaattatggtaacaaa
tataaaggatttataactttaaaagaggctttgagggattcaagaaacttagcaactata
aatttactaaaccaaataggtttagatgtagcgtatcaaaaacttacagaacttggtttt
agcggtatatctcaagatttatcaatagctcttggtagttttggtgtatcgcctctagaa
gcttccaaattttattctatgtttccaaatttaggagagattgttgaaccaaaactgatt
agaaaagttacaaataaatttggtataactaaaatttatgattcaaaaagagcttttata
atggaacctgaacaagcatatcttatggttgatatgcttaaaactgttgtaaatgaagga
acaggtagaagagcaagagttgatggagtagaaataggcggtaaaacgggaactacaaat
aacaatgtagatgcttggttttgcggatttgcaccagagcttgctgtgatggtttggtat
ggaaatgataacaatactccaatgaaaaaattcgaaggtggagctagaacttctggacct
gtatttaaaaaatttgttgaggattacaaaaaattaaatccagatatggaaactaagttt
gtaaaaccagatggcgtaaaaagtatgatgtatcaaggaaaagaagcattttatacagat
aagtcccctcttccaaattcatctcaaatggataacttggatatgcaagaaagcgaggga
ttgatattttaa |
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